Technical Assignment 2 Electrical System Existing Conditions and Building Load Summary Report

Villanova University: School of Law Villanova, PA

Jason Greer

Lighting/Electrical Option

November 2, 2007

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 2 of 14 11/2/07

Table of Contents Table of Contents 2 Executive Summary 3 Summary Description of Distribution System 4 Service Entrance 4 Voltage Systems 4 Transformers 5 Emergency Power System 5 Over-current Devices 6 Location of Switchgear 6 Power Factor Correction 8 Design Issues 8 Lighting Loads 8 Mechanical/Other Loads 8 Service Entrance Size 8 Utility Company Information 8 Telecom/Security Systems 9 Fire Alarm System 10 Appendices 11

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 3 of 14 11/2/07

Executive Summary The following Electrical System Existing Conditions and Building Load Summary Report analyzes the current conditions regarding the electrical system of the Villanova University: School of Law. This report analyzes all components of the electrical system as well as studies the sizing of the service entrance equipment. The systems that were analyzed are but are not limited to the service entrance, equipment size, the fire alarm system, the security system, the lighting systems, the mechanical equipment sizes and the telecommunication system. A single line diagram was produced to help better understand the power distribution system of the law school. Upon completion of the report, it was shown that the switchgear was sized correctly for this particular building. The 3000A switchboard will protect the load that was calculated in all three of the sizing methods. The transformer is undersized but as was discussed in class, this is a practice that is often used. A transformer can withstand short term overloads as the heat in the transformer is the issue unlike tripping in most other equipment. Further downstream, it was also discovered that all busses and over-current devices were sized correctly as well. Any relevant information that is not located in the body of this report can be found in the appendices that follow. The information located in the appendices include the switchgear detail and schedule, the motor control center and schedule, the luminaire schedule, the mechanical equipment schedule, all service entrance calculations and the single line diagram.

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 4 of 14 11/2/07

Summary Description of Distribution System The power distribution system for the Villanova University: School of Law is a simple radial system. The electric service is connected to the university’s 13.2kV underground primary distribution system with a 15kV primary loop switch. The service is provided by a 2000kVA, 13.2kV primary voltage to 480Y/277V secondary voltage, 3 phase, 4 wire transformer located outside the building. A 3000A, 480Y/277V, 3 phase, 4 wire switchboard is located in the sub-basement and will distribute power to the building. The switchboard provides power to elevators, the chiller plant, AHUs, and the lighting and receptacle panels. The receptacle panels are supplied through a 480V to 208V transformer. Service Entrance The service for the law school is connected to the universities 13.2kV underground primary distribution system. A 2000kVA, 13.2kV, 3 phase, 3 wire to 480V, 3 phase, 4wire transformer steps to power down before it enters the building in the sub-basement. In the sub-basement there is a 3000A, 480Y/277V, 3P, 4W switchboard that distributes the power to the rest of the building. The switchboard is of circuit breaker type. It is metal enclosed and is front accessible. The internal bus bars are tinned copper with 100% neutral and ground bus. Since this is a university building that is connected to the university’s primary distribution system, the university has supplied all equipment and is responsible for the maintenance. Voltage Systems The voltage systems for this building are 480Y/277V, 3P, 4W and 208Y/120V, 3P, 4W. The 480V system provides power to mechanical loads, elevators, motors, other large equipment and non-incandescent lighting loads. The 208V system provides power to smaller equipment, receptacles and incandescent lighting loads.

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 5 of 14 11/2/07

Transformers

TAG PRIMARYVOLTAGE

SECONDARYVOLTAGE

SIZE TYPE TEMP. RISE

TAPS MOUNTING REMARKS

X‐1 13.2kV, 3P, 3W 480Y/277V, 3P, 4W 1500kVASilicone‐baseddielectric filled 55°C

(4) 2.5% Taps(2) Up & (2) Dn

Concrete PadMount (outside)

XS‐1 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 75kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

XS‐2 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 75kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

XS‐3 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 45kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

XS‐4 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 45kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

XB‐1 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 30kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X1‐1 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 75kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X1‐2 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 112.5kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X2‐1 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 45kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X2‐2 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 112.5kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X3‐1 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 45kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

X3‐2 480Y/277V, 3P, 4W 208Y/120V, 3P, 4W 112.5kVA Dry Type 115°C(6) 2.5% Taps(2) Up & (4) Dn

Pad mounted, vibration isolated

INDIVIDUAL TRANSFORMER SCHEDULE

Emergency Power System The emergency power for the law school is provided by a 300kW, 480Y/277V, 3P, 4W diesel generator. There is a 300 gallon tank that will hold the diesel fuel. 300 gallons of fuel will allow this generator to provide 13 hours of operation when the primary power is down. The generator and tank are located by the loading dock. The emergency system consists of a life safety branch and a non-life safety branch. The life safety branch is provided with an automatic transfer switch which will serve all life safety loads which includes all emergency lighting, fire alarm system, and fire pump. The non-life safety branch is provided with an ATS also and will serve all receptacles for the telecommunication equipment room. ATS’s are completed with all relays, timers and associated control circuitry to automatically start the engine, transfer the load upon primary power failure. Upon restoration of primary power, the ATS will transfer load back and stop the engine

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 6 of 14 11/2/07

Over-current Devices Service Generator 15kV primary fuse assembly. Current-limiting fuses are 50kA RMS at specified voltage. Switchgear See Appendix A for over-current specs for switchgear Motor Control Center See Appendix B for over-current specs for MCC Panel Boards Typical circuit breakers

Locations of Switchgear

Equipment Tag Type Floor Level Room Name Room Number 1/8th Scale Dwg Detail Drawing

X-1 Service Transformer Outside Outside Outside E5.1 N/A

XS-1 Stepdow n Transformer Sub-basement Electrical Room B02A E2.0 N/A

XS-2 Stepdow n Transformer Sub-basement Electrical Room B02 E2.0 N/A

XS-3 Stepdow n Transformer Sub-basement Electrical Room B02 E2.0 N/A

XS-4 Stepdow n Transformer Sub-basement Electrical Room B02 E2.0 N/A

XB-1 Stepdow n Transformer Basement Electrical Room L29 E2.0 N/A

X1-1 Stepdow n Transformer First Electrical Room 188 E2.1 N/A

X1-2 Stepdow n Transformer First Electrical Room 119A E2.1 N/A

X2-1 Stepdow n Transformer Second Electrical Room 266 E2.2 N/A

X2-2 Stepdow n Transformer Second Electrical Room 219A E2.2 N/A

X3-1 Stepdow n Transformer Third Electrical Room 366 E2.3 N/A

X3-2 Stepdow n Transformer Third Electrical Room 319A E2.3 N/A

MDB Sw itch Board Sub-basement Electrical Room B02 E2.0 E6.1

EDP-BS Emergency Dist. Panel Sub-basement Electrical Room B02A E2.0 N/A

MCC Motor Control Center Basement Mechanical Room L34 E2.0 E6.1

G-1 Emergency Generator Outside Outside Outside E5.1 N/A

ATS-NLSAuto. Trans. Sw itchNon-Life Safety Sub-basement Electrical Room B02A E2.0 N/A

ATS-LSAuto. Trans. Sw itchLife Safety Sub-basement Electrical Room B02A E2.0 N/A

Major Equipment Locations

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 7 of 14 11/2/07

Equipment Tag Type Voltage Main Size Floor Level Room Name Room Number Dwg No. Detail Drawing

ENP-MDF Non-Life Safety Emerg. Panel 208V 100 Sub-basement MDF B01 E2.0 N/A

LP-BS Lighting Panel 480V 225 Sub-basement Electrical Room B02 E2.0 N/A

ENDPH-BS Non-Life Safety Emerg. Panel 480V 225 Sub-basement Electrical Room B02A E2.0 N/A

ENDPL-BS Non-Life Safety Emerg. Panel 208V 400 Sub-basement Electrical Room B02A E2.0 N/A

ENP-BS Non-Life Safety Emerg. Panel 480V 100 Sub-basement Electrical Room B02A E2.0 N/A

ELP-BS Life Safety Emerg. Panel 480V 100 Sub-basement Electrical Room B02A E2.0 N/A

ERP-BS Emergency Receptacle Panel 208V 100 Sub-basement Electrical Room B02A E2.0 N/A

LP-BN Lighting Panel 480V 225 Basement Electrical Room L29 E2.0 N/A

RP-BN Receptacle Panel 208V 100 Basement Electrical Room L29 E2.0 N/A

ELEV-BN Elevator Panel 480V 400 Basement Elev. Mach. Room L19 E2.0 N/A

RP-K(sec.1) Receptacle Panel (kitchen) 208V 225 Basement Kitchen L15 E2.0 E2.5

RP-K(sec.2) Receptacle Panel (kitchen) 208V 225 Basement Kitchen L15 E2.0 E2.5

RP-BSA Receptacle Panel 208V 100 Basement Electrical Closet N/A E2.0 N/A

RP-BS Receptacle Panel 208V 450 Basement Electrical Closet N/A E2.0 N/A

LP-1N Lighting Panel 480V 400 First Electrical Room 188 E2.1 N/A

RP-1NA Receptacle Panel 208V 400 First Electrical Room 188 E2.1 N/A

ELP-1N Emergency Lighting Panel 480V 100 First Electrical Room 188 E2.1 N/A

RP-1NB Receptacle Panel 208V 100 First Electrical Closet N/A E2.1 N/A

LP-1S Lighting Panel 480V 400 First Electrical Room 119A E2.1 N/A

PR-1SA-1 Receptacle Panel 208V 225 First Electrical Room 119A E2.1 N/A

RP-1SA-2 Receptacle Panel 208V 225 First Electrical Room 119A E2.1 N/A

RP-1SA-3 Receptacle Panel 208V 225 First Electrical Room 119A E2.1 N/A

ENP-1S Non-Life Safety Emerg. Panel 208V 100 First Electrical Room 119A E2.1 N/A

ELP-1S Life Safety Emerg. Panel 480V 100 First Electrical Room 119A E2.1 N/A

ERP-1S Emerg. Receptacle Panel 208V 100 First Electrical Room 119A E2.1 N/A

RP-1SB Receptacle Panel 208V 100 First Electrical Closet N/A E2.1 N/A

ENP-MDF2 Non-Life Safety Emerg. Panel 208V 100 First Netw ork Server Room 146 E2.1 N/A

LP-2N Lighting Panel 480V 225 Second Electrical Room 266 E2.2 N/A

RP-2NA Receptacle Panel 208V 225 Second Electrical Room 266 E2.2 N/A

RP-2NB Receptacle Panel 208V 100 Second Electrical Closet N/A E2.2 N/A

LP-2S Lighting Panel 480V 225 Second Electrical Room 219A E2.2 N/A

RP-2SA-1 Receptacle Panel 208V 225 Second Electrical Room 219A E2.2 N/A

RP-2SA-2 Receptacle Panel 208V 225 Second Electrical Room 219A E2.2 N/A

RP-2SA-3 Receptacle Panel 208V 225 Second Electrical Room 219A E2.2 N/A

RP-2SB Recpetacle Panel 208V 100 Second Electrical Closet N/A E2.2 N/A

LP-3N Lighting Panel 480V 225 Third Electrical Room 366 E2.3 N/A

RP-3NA Receptacle Panel 208V 225 Third Electrical Room 366 E2.3 N/A

ELP-3N Life Safety Emerg. Panel 480V 100 Third Electrical Room 366 E2.3 N/A

RP-3NB Receptacle Panel 208V 225 Third Electrical Closet N/A E2.3 N/A

LP-3S Lighting Panel 480V 100 Third Electrical Room 319A E2.3 N/A

RP-3SA-1 Receptacle Panel 208V 225 Third Electrical Room 319A E2.3 N/A

RP-3SA-2 Receptacle Panel 208V 225 Third Electrical Room 319A E2.3 N/A

RP-3SA-3 Receptacle Panel 208V 225 Third Electrical Room 319A E2.3 N/A

ENP-3S Non-Life Safety Emerg. Panel 208V 100 Third Electrical Room 319A E2.3 N/A

ELP-3S Life Safety Emerg. Panel 480V 100 Third Electrical Room 319A E2.3 N/A

ERP-3S Emergency Receptacle Panel 208V 100 Third Electrical Room 319A E2.3 N/A

RP-3SB Receptacle Panel 208V 100 Third Electrical Closet N/A E2.3 N/A

Panel Board Locations

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 8 of 14 11/2/07

Power Factor Correction This project has no capacitors for power factor correction. Design Issues This issue is more of a communication issue than a design issue but I will address it here nonetheless. During the completion of the construction documents, the owner added additional receptacle multiple times. This resulted in panels that are lacking in spares and spaces. This issue could have been avoided if during DD the proper amount of receptacles were discussed. Lighting Loads See Appendix C The spaces in the Villanova University: School of Law utilize occupancy sensors, photocells, time switches to meet ASHRAE 90.1 automatic shutoff requirements. The main spaces are controlled using centralized lighting control panels that turn the lights on at a set time and off at another. Mechanical and Other Loads See Appendix D Service Entrance Size

See Appendix E for more detailed calculations. Utility Company Information The following rate structure was obtained from PECO’s website, http://www.exeloncorp.com/ourcompanies/peco. This structure applies to customers that require untransformed power service from the primary supply lines of PECO’s distribution system. The customer installs, owns and maintains any transforming, switching and other receiving equipment required.

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 9 of 14 11/2/07

MONTHLY RATE TABLE FIXED DISTRIBUTION SERVICE CHARGE: $279.67 METERING AND BILLING CREDITS: A customer receiving Advanced Meter Services from a AMSP other than the Company will receive a credit on the Fixed Distribution Service Charge equal to the Total Metering Credit set forth for this Base Rate in Appendix B to the Joint Petition for Full Settlement. A customer receiving Consolidated EGS Billing will receive a credit on the Fixed Distribution Service Charge equal to the Billing and Collection Credit set forth for this Base Rate in Appendix B to the Joint Petition for Full Settlement. VARIABLE DISTRIBUTION SERVICE CHARGE: $1.82 per kW of billing demand 1.62¢ per kWh of the first 150 hours’ use of billing demand 0.96¢ per kWh of the first next 150 hours’ use of billing demand 0.31¢ per kWh for additional use.

COMPETITIVE TRANSITION CHARGE: $3.17 per kW of billing demand 2.81¢ per kWh of the first 150 hours’ use of billing demand 1.67¢ per kWh for the next 150 hours’ use of billing demand 0.54¢ per kWh for additional use. ENERGY AND CAPACITY CHARGE: The following Energy and Capacity Charges will apply to the customer if the customer receives Default PLR Service. These charges are not applicable to the customer if it obtains Competitive Energy Supply. $4.85 per kW of billing demand 6.07¢ per kWh of the first 150 hours’ use of billing demand 4.32¢ per kWh for the next 150 hours’ use of billing demand 2.59¢ per kWh for additional use. Telecommunications/Security Systems A duct bank for telecommunication service to the law school is provided from Villanova University’s campus telecommunication network. A main telecom demarcation room is located in the basement. Two telecom rooms are located on each floor also. A complete telecom raceway system consisting of back boxes, conduits, and ladder trays are run throughout the building on each floor. All voice and data cables are provided by others as part of a separate contract. Card access system equipment is also provided as part of a separate contract. Finally, a complete security raceway system is provided throughout the building where needed.

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 10 of 14 11/2/07

Fire Alarm System The fire alarm system is a solid state, multiplex, addressable fire alarm system that consists of graphic annunciation panels at the entrance lobby. Manual pull stations, audio/visual devices, flow switches, tamper switches and smoke and heat detectors are located throughout the building. The fire alarm system is connected between the building security system and the campus central security console. The fire alarm system can be monitored through any computer and a printer can output all fire alarm activity. The smoke and heat detectors for the elevator system are interfaced with the elevator controllers for elevator recall and shut down requirements.

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 11 of 14 11/2/07

Appendix A

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 12 of 14 11/2/07

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 13 of 14 11/2/07

Appendix B

Jason Greer Lighting / Electrical Consultant: Dr. Mistrick Villanova University: School of Law Villanova, PA 100%-Technical Report 2 November 2, 2007

AE 481 Page 14 of 14 11/2/07

NO. TYPEF1 Pendant Lighting White 277 68 0.25 0.25 0.98 0.98 Axis Lighting BD PL 4 T5 1 W E 1 SA# C 2 28W T5 Electronic 1.05 Pendant -

F1a Pendant Lighting White 277 136 0.50 0.50 0.98 0.98 Axis Lighting BD PL 4 T5 1 W E 1 SA# C 4 28W T5 Electronic 1.05 Pendant

Provide (2) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (1) normal ballast when designatedas emergency

F1b Pendant Lighting White 277 204 0.75 0.75 0.98 0.98 Axis Lighting BD PL 4 T5 1 W E 1 SA# C 6 28W T5 Electronic 1.05 Pendant

Provide (3) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (2) normal ballast when designatedas emergency

F2 Pendant Lighting White 277 68 0.25 0.25 0.98 0.98 Axis Lighting LT PL 4 T5 W * * E 277 1 SA 2 28W T5 Electronic 1.05 Pendant -

F2a Pendant Lighting White 277 136 0.50 0.50 0.98 0.98 Axis Lighting LT PL 4 T5 W * * E 277 1 SA 4 28W T5 Electronic 1.05 Pendant

Provide (2) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (1) normal ballast when designatedas emergency

F2b Pendant Lighting White 277 204 0.75 0.75 0.98 0.98 Axis Lighting LT PL 4 T5 W * * E 277 1 SA 6 28W T5 Electronic 1.05 Pendant

Provide (3) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (2) normal ballast when designatedas emergency

F3 Recessed 2x2 Troffer White 277 71 0.26 0.26 0.98 0.98 Focal Point FMA2 22 2 BX40 1C 277 E G WH 2 T5 40 BIAX Electronic 1.00 Recessed -F4 Pendant Lighting White 277 68 0.25 0.25 0.98 0.98 Axis Lighting CU PL 4 T5 W * * E 277 1 SA 2 28W T5 Electronic Pendant -

F4a Pendant Lighting White 277 136 0.50 0.50 0.98 0.98 Axis Lighting CU PL 4 T5 W * * E 277 1 SA 4 28W T5 Electronic 1.05 Pendant

Provide (2) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (1) normal ballast when designatedas emergency

F4b Pendant Lighting White 277 204 0.75 0.75 0.98 0.98 Axis Lighting CU PL 4 T5 W * * E 277 1 SA 6 28W T5 Electronic 1.05 Pendant

Provide (3) two lamp ballasts per fixture.Provide (1) two lamp emergency ballastand (2) normal ballast when designatedas emergency

F5 Adjustable Board Light White 277 34 0.12 0.12 0.98 0.98 Insight CF5 SMS 4 270 W LV5 1 28W T5 Electronic 1.05 Surface -F6 Industrial Strip White 277 34 0.12 0.12 0.98 0.98 Prudential PT5-STD 1T5 4 BWE 277 1 28W T5 Electronic 1.05 Surface -F7 Industrial Strip White 277 68 0.25 0.25 0.98 0.98 Prudential PT5-STD 2T5 4 BWE 277 2 28W T5 Electronic 1.05 Surface -F8 2x4 Lensed Troffer White 277 102 0.37 0.37 0.98 0.98 Lithonia 3 28W T5 Electronic 1.05 Recessed -

F9 Linear Strip White 277 34 0.12 0.12 0.98 0.98 Lithonia MS5 Series 1 28W T5 Electronic 1.05 Surface

Use 3' and 4' lengths to continuoulsyfill cove. All unused space shall be equally distributed on both ends.

F9a Linear Strip White 277 13/63 0.23 0.23 0.98 0.98 Lithonia MS5 Series 1 28W T5 Dimming 1.00 Surface

Use 3' and 4' lengths to continuoulsyfill cove. All unused space shall be equally distributed on both ends.

F10 6" Downlight Clear 277 36 0.13 0.13 0.98 0.98 Gotham AFV Series 1 32W CFL Electronic 1.10 Recessed -F10a 6" Downlight Clear 277 36 0.13 0.13 0.98 0.98 Gotham AFV Series 1 32W CFL Electronic 1.10 Recessed -F11 Linear Indirect Satin Anodized 277 24/124 0.45 0.45 0.98 0.98 Peerless Lightedge 2 28W T5 Dimming 1.00 Surface -

F12 Linear Wallslot White 277 34 0.12 0.12 0.98 0.98 Focal Point Focus 4 1 28W T5 Electronic 1.05 Recessed

Use 3' and 4' lengths to continuoulsyfill cove. All unused space shall be equally distributed on both ends.

F13 Pendant Lighting Aluminum 277 68 0.25 0.25 0.98 0.98 Axis Lighting Cubic Series 2 28W T5 Electronic 1.05 PendantExtruded aluminum housing and perforated diffuser

F14 Linear Downlight White 277 34 0.12 0.12 0.98 0.98 Selux M100 Series 1 28W T5 Electronic 1.05 RecessedContinuous spackle flange and silkyspecular parabolic louver

F15 6" Dia. Wallwasher Clear 277 36 0.13 0.13 0.98 0.98 Gotham AFVW 1 32W CFL Electronic 1.10 Recessed -F15a 6" Dia. Wallwasher Clear 277 9/38 0.14 0.14 0.98 0.98 Gotham AFVW 1 32W CFL Dimming 1.00 Recessed -F16 Linear Undercabinet White 277 34 0.12 0.12 0.98 0.98 Alkco Little Inch Series 1 28W T5 Electronic 1.05 Surface -F17 6" Width Linear Asymmetric White 277 68 0.25 0.25 0.98 0.98 Ledalite In-Cove LP 2 28W T5 Electronic 1.05 Surface -F17a 6" Width Linear Asymmetric White 277 24/124 0.45 0.45 0.98 0.98 Ledalite In-Cove LP 2 28W T5 Dimming 1.00 Surface -

F18 Linear Direct Strip Grey 277 34 0.12 0.12 0.98 0.98 Exterieur Vert Lineos 1 28W T5 Electronic 1.05 SurfaceExterior rated. Extruded aluminum housingand polycarbonate lens.

F19 Cylindrical Wall Sconce Natural Alum. 277 19 0.07 0.07 0.97 0.97 Allscape BL-127 Series 1 18W CFL Electronic 1.05 Surface Exterior rated. Downlight only distribution.F20 2x2 Louvered Troffer Aluminum 277 71 0.26 0.26 0.98 0.98 Lithonia 2PM3N G A 2 CF40 12 277 2 T5 40 BIAX Electronic 1.00 Recessed -F21 Industrial Strip White 277 34 0.12 0.12 0.98 0.98 Prudential S1-175-4-YGW-277-SUR-X3 1 28W T5 Electronic 1.05 Surface Capable of wall or ceiling mount

F22 Linear Pendant White 277 34 0.12 0.12 0.98 0.98 Waldman RL40 Series 1 28W T5 Electronic 1.05 PendantPolycarbonate satin lens, remote ballastaluminum pendant bracket

F23Linear Fluorescent w/ MR16Downlights White 277/120 137 0.85 0.85 0.98 0.98 Mark Architectural Slot 6 1&2

28w T5/37W MR 16 Dimming 1.00 Recessed

Separate circuits for incandescent and fluorescent

F24 Lensed Troffer White 277 34 0.12 0.12 0.98 0.98 Prudential P-82-T5-16-PRA-SC-277-X1 1 28W T5 Electronic 1.05 Recessed -F25 Downlight White 277 36 0.13 0.13 0.98 0.98 Gotham LGF-32TRT-GR2-T73-277 1 32W CFL Electronic 1.10 Recessed -

F26 Downlight White 277 36 0.13 0.13 0.98 0.98 Delray 4740.0.2 1 32W CFL Electronic 1.10 RecessedRecessed downlight w/ semi-recessed glassdiffuser

T1 6" Dia Ingrade Silver 120 74 #VALUE! 0.62 1 1 Exterieur Vert Phenix C1R Series 2 37W MR16 - 1.00 Ingrade Remote transformer w/ straight edge trim

T2 4" Dia. Adjustable accent Clear 120 37 #VALUE! 0.31 1 1 Gotham DLV 1 37W MR16 - 1.00 RecessedLockable aiming, standard softening lens, tapered cut for angles 25-45

T3 Track Silver 12 37 #VALUE! 3.08 1 1 LSI LN16 Series 1 37W MR16 Low Volt 1.00 Track Low VoltageT5 Decorative Pendant Matte Chrome 120 50 #VALUE! 0.42 1 1 Bruck Candle Down Series 1 50W Halogen - 1.00 Pendant -

T6Cylindrical Decorative Pendant Satin Nickel 120 24/125 1.05 1.05 0.98 0.98 Schmitz Tool 2 28W T5 Dimming 1.00 Pendant 72", Satin acrylic diffuser

T7Cylindrical Decorative Pendant Matte Chrome 120 93 0.78 0.78 0.99 0.99 Schmitz Tool 2 42W CFL Electronic 0.97 Pendant 15", Satin acrylic diffuser

H1 Ceiling Washer Aluminum 277 45 0.18 0.18 0.95 0.95 Elliptipar Style 105 1 39W MH T6 Electronic 1.00 Surface Low ProfileH2 Adjustable Downlight 120 26 0.23 0.23 0.9 0.9 Amerlux Evoke 1 20W MH T4 Electronic 1.00 Recessed -

H4 Track Spot Aluminum 277 45 0.18 0.18 0.95 0.95 Lightolier Lytespan 1 39W MH T6 Electronic 1.00 Track

Surface mount canopy w/ decorative shroudenclosuer and payne sparkman emergency interface module

H5 Ceiling Washer Silver 277 161 0.69 0.69 0.9 0.9 Elliptipar Style 407 1 150W MH T6 Electronic 1.00 Surface -H6 Ceiling Washer Silver 277 161 0.69 0.69 0.9 0.9 Elliptipar Style 407 1 150W MH T6 Electronic 1.00 Pendant -H7 Wallpack 277 129 0.5 0.50 0.90 0.9 Lithonia TWR1S-2-TB-LPI 1 100W MH Magnetic 1.00 Wall Mount Full cutoff; for mechanical maintenance

L1 Linear LED Strip Black 24 14W/ft Length. Dep Length Dep. 0.90 0.9 Winona V Gen 2 - Warm White - - Surface

Exterior rated; remote driver; 30 deg distribution;length as indicated on drawings

L2 LED 24 100 0.13A/ft 0.13A/ft Ilight PN-24-B-S-CL - Blue LED - - Surface Field bendable plexineon

VILLANOVA UNIVERSITY: SCHOOL OF LAW

Jason GreerDESCRIPTION Finish VOLTAGE INPUT

WATTS REMARKS

LUMINAIRE SCHEDULE

STARTCURRENT

STARTINGP.F.

TAG OPPERATINGCURRENT

OPPERATINGP.F. BALLAST MOUNTING

LAMPSMANUFACTURER CATALOG NO.B.F.

Appendix C

NO. SIZEARC-L-1 Air Curtain 1/2 1.1 115 1 20 3/4 2 12 12ARC-L-2 Air Curtain 1 1.8 115 1 30 3/4 2 12 12BR-R-1 Bldg Relief Exhaust Fan 3 6.0 460 3 15 3/4 3 12 12CE-L-1 Exhaust Fan 1/4 0.7 115 1 15 3/4 2 12 12CE-R-1 Exhaust Fan 1/6 0.5 115 1 15 3/4 2 12 12CE-R-2 Exhaust Fan 1/6 0.5 115 1 15 3/4 2 12 12CH-1 Chiller - 7.8 460 3 15 3/4 3 12 12CH-2 Chiller - 193.4 460 3 300 3 4 350kcmil 4CP-1 Condensate Pump 2 2.7 460 3 15 3/4 3 12 12CP-2 Condensate Pump 1/3 0.8 120 1 15 3/4 2 12 12CRAC-SB-1 AC Unit - 10.6 460 3 25 3/4 3 12 12CRAC-L-1 AC Unit - 15.6 460 3 30 3/4 3 12 12CRAC-L-2 AC Unit - 9.9 460 3 20 3/4 3 12 12CRAC-1-1 AC Unit - 26.1 460 3 40 3/4 3 10 10CRAC-1-2 AC Unit - 1.6 277 1 15 3/4 2 12 12CRAC-1-3 AC Unit - 1.6 277 1 15 3/4 2 12 12CRAC-1-4 AC Unit - 1.6 277 1 15 3/4 2 12 12CRAC-2-1 AC Unit - 1.6 277 1 15 3/4 2 12 12CRAC-3-1 AC Unit - 1.6 277 1 15 3/4 2 12 12CT-1 Cooling Tower 20 21.5 460 3 60 3/4 3 8 10CT-2 Cooling Tower 20 21.5 460 3 60 3/4 3 8 10CUH-L-1 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CUH-L-3 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CUH-1-1 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CUH-1-2 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CUH-1-3 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CUH-1-4 Unit Heater 1/12 0.3 115 1 15 3/4 2 12 12CWP-1 Condenser Pump 30 31.8 460 3 90 1 3 6 8CWP-2 Condenser Pump 25 27.1 460 3 70 3/4 3 8 8EF-L-1 Exhaust Fan 2 2.7 460 3 15 3/4 3 12 12EF-L-2 Exhaust Fan 1/4 0.7 115 1 15 3/4 2 12 12EF-SB-1 Exhaust Fan 1 1/2 2.7 460 3 15 3/4 3 12 12EUH-1 Electric Unit Heater - 3.3 208 1 20 3/4 2 12 12EUH-2 Electric Unit Heater - 3.3 208 1 15 3/4 2 12 12FCU-1-1 Fan Coil Unit 1/8 0.4 115 1 15 3/4 2 12 12FCU-3-1 Fan Coil Unit 1/8 0.4 115 1 15 3/4 2 12 12FCU-L-1 Fan Coil Unit 1/6 0.5 115 1 15 3/4 2 12 12FCU-L-2 Fan Coil Unit 1/6 0.5 115 1 15 3/4 2 12 12FP-L-1,2 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-1-1 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-1-2 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-1-3 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-2-1 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-2-2 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-2-3 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-3-1 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-3-2 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-3-3 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12FP-3-4 AHU Freeze Protection Pump 1/3 0.8 115 1 15 3/4 2 12 12GDC-R-1 Liquid Dry Cooler 3 3.8 460 3 15 3/4 3 12 12GE-3-1 Exhaust Fan 1/12 0.3 115 1 15 3/4 2 12 12GE-R-1 Exhaust Fan 1/4 0.5 115 1 15 3/4 2 12 12GE-R-2 Exhaust Fan 1/4 0.5 115 1 15 3/4 2 12 12GE-R-3 Exhaust Fan 1 1.8 115 1 30 3/4 2 12 12KE-R-1 Kitchen Exhaust Fan 3 3.8 460 3 15 3/4 3 12 12KE-R-2 Kitchen Exhaust Fan 1/2 1.1 460 3 15 3/4 3 12 12HHWP-1 Hot Water Pump 20 21.5 460 3 60 3/4 3 8 10HHWP-2 Hot Water Pump 20 21.5 460 3 30 3/4 3 12 12PCHWP-1 Primary Chilled Water Pump 7 1/2 8.8 460 3 30 3/4 3 12 12PCHWP-2 Primary Chilled Water Pump 10 11.1 460 3 30 3/4 3 12 12RF-L-1 Return Fan 7 1/2 8.8 460 3 30 3/4 3 12 12FR-L-2 Return Fan 7 1/2 8.8 460 3 30 3/4 3 12 12RF-1-1 Return Fan 5 6.0 460 3 15 3/4 3 12 12RF-1-2 Return Fan 7 1/2 8.8 460 3 30 3/4 3 12 12RF-1-3 Return Fan 3 3.8 460 3 15 3/4 3 12 12RF-2-1 Return Fan 3 3.8 460 3 15 3/4 3 12 12RF-2-2 Return Fan 7 1/2 8.8 460 3 30 3/4 3 12 12RF-2-3 Return Fan 3 3.8 460 3 15 3/4 3 12 12RF-3-1 Return Fan 3 3.8 460 3 15 3/4 3 12 12RF-3-2 Return Fan 10 11.1 460 3 30 3/4 3 12 12RF-3-3 Return Fan 5 6.0 460 3 15 3/4 3 12 12SCHWP-1 Secondary Chilled Water Pump 25 27.1 460 3 70 3/4 3 8 8SCHWP-2 Secondary Chilled Water Pump 25 27.1 460 3 70 3/4 3 8 8SF-L-1 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-L-2 Supply Fan 15 16.7 460 3 40 3/4 3 10 10SF-1-1 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-1-2 Supply Fan 20 21.5 460 3 40 3/4 3 10 10SF-1-3 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-2-1 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-2-2 Supply Fan 15 16.7 460 3 40 3/4 3 10 10SF-2-3 Supply Fan 15 16.7 460 3 40 3/4 3 10 10SF-3-1 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-3-2 Supply Fan 20 21.5 460 3 40 3/4 3 10 10SF-3-3 Supply Fan 15 16.7 460 3 40 3/4 3 10 10SF-R-1 Supply Fan 10 11.1 460 3 30 3/4 3 12 12SF-R-2 Supply Fan 3 3.8 460 3 15 3/4 3 12 12SS-R-1 Sump Sweep 10 11.1 460 3 30 3/4 3 12 12TE-3-1 Exhaust Fan 1/60 0.3 115 1 15 3/4 2 12 12TE-R-1 Exhaust Fan 1/4 0.7 115 1 15 3/4 2 12 12TE-R-2 Exhaust Fan 1/3 0.8 115 1 15 3/4 2 12 12TE-R-3 Exhaust Fan 1/4 0.7 115 1 15 3/4 2 12 12TF-L-1 Transfer Fan 1/33 0.3 115 1 15 3/4 2 12 12TF-1-1 Transfer Fan 1/3 0.8 115 1 20 3/4 2 12 12TF-2-1 Transfer Fan 1/12 0.3 115 1 20 3/4 2 12 12TF-3-1 Transfer Fan 1/12 0.3 115 1 20 3/4 2 12 12UH-1 Unit Heater 1/6 0.5 115 1 15 3/4 2 12 12

DBP-1 Booster Pump 10 11.10 480 3 30 3/4 3 12 12DWH-1 Domestic Water Heater 120 1 2DWH-2 Domestic Water Heater 120 1 2FP-Cont Fire Pump Controller 100 98.70 480 3 2 3 2/0 6HWRP-1 Hot Water Recircuilating Pump 1/6 0.50 115 1 15 3/4 2 12 12HWRP-2 Hot Water Recircuilating Pump 1/6 0.50 115 1 15 3/4 2 12 12JP-Cont Jockey Pump Controller 2 2.70 480 3 15 3/4 3 12 12SP-1 Sump Pump 1/2 0.60 277 1 15 3/4 2 12 12SP-2 Sump Pump 1/2 0.60 277 1 15 3/4 2 12 12SP-3 Sump Pump 1 1.40 460 3 15 3/4 3 12 12

Elev-1 Elevator - 51.73 480 3 125 2 4 2/0 6Elev-2 Elevator - 51.73 480 3 125 2 4 2/0 6Elev-3 Elevator - 61.28 480 3 150 2 4 2/0 6Elev-4 Elevator - 51.73 480 3 125 2 4 2/0 6

HP REMARKSCONDUCTORS

VILLANOVA UNIVERSITY: SCHOOL OF LAW

Jason Greer

PLUMBING EQUIPMENT SCHEDULE

ELEVATOR SCHEDULE

BRANCH CIRCUIT

MECHANICAL EQUIPMENT SCHEDULE

TAG DESCRIPTION KVAGROUND

SIZECONDUI

T

VOLTAGE PHASE CB SIZE

J. Greer

Building Type Usage Type

Demand Power

Density (VA/SF) Floor Area Load (kVA)

Load (A)

@ 480V

College Building Classrooms 8 Sub-Basement 2,332 19 22.43968046

Basement 36,495 292 351.1733012

1st Floor 45,430 363 437.1503788

2nd Floor 45,430 363 437.1503788

3rd Floor 45,430 363 437.1503788

Total 175,117 1,401 1685

Total w/ Growth (10%) 1541 1854

Service Entrance Sizing - Conceptual

Appendix E

J. Greer

Category Demand (VA/SF) Floor Area Load (kVA)

Load (A)

@ 480V

Lighting 3 Sub-Basement 2,332 7.00

Basement 36,495 109.49

1st Floor 45,430 136.29

2nd Floor 45,430 136.29

3rd Floor 45,430 136.29

Total 175,117 525.35 631.90

Receptacles 1 Sub-Basement 2,332 2.33

Basement 36,495 36.50

1st Floor 45,430 45.43

2nd Floor 45,430 45.43

3rd Floor 45,430 45.43

Total 175,117 175.12 210.63

Fans/Pumps 2 Sub-Basement 2,332 4.66

Basement 36,495 72.99

1st Floor 45,430 90.86

2nd Floor 45,430 90.86

3rd Floor 45,430 90.86

Total 175,117 350.23 421.27

HVAC 7 Sub-Basement 2,332 16.32

Basement 36,495 255.47

1st Floor 45,430 318.01

2nd Floor 45,430 318.01

3rd Floor 45,430 318.01

Total 175,117 1225.82 1474.43

Total 2277 2738Total w/

Growth 2504 3012

Service Entrance - DD

Appendix F

J. Greer

Panel/Equipment Connected Lighting LoadMechanical Load(Connected)

Mechanical Load(Demand)

Elevator Load(Connected)

Elevator Load(Demand = 0.85)

Kitchen Load(Connected)

Kitchen Load(Demand = 0.65)

Receptacle Load(Connected)

Receptacle Load(Demand)

LP-1N 287.3 165.2 62.0 49.6 0.0 0.0 0.0 0.0 60.2 35.1LP-1S 168.6 40.8 17.2 13.7 0.0 0.0 0.0 0.0 110.7 60.3RP-K 113.0 0 0 0 0.0 0.0 113.0 73.5 0.0 0.0LP-BN 89.4 29.0 26.8 21.4 0.0 0.0 0.0 0.0 33.6 21.8LP-BS 174.4 21.3 81.2 64.9 0.0 0.0 0.0 0.0 71.9 41.0ELEV-BN 216.5 0 0 0 216.5 184.0 0.0 0.0 0.0 0.0LP-2S 155.6 37.9 15.0 12.0 0.0 0.0 0.0 0.0 102.7 56.3LP-3S 180.4 36.2 15.0 12.0 0.0 0.0 0.0 0.0 129.2 69.6EDP-BS 144.0 28.8 71.4 57.1 0.0 0.0 0.0 0.0 43.8 26.9DP-PH 73.6 1.9 71.7 57.3 0.0 0.0 0.0 0.0 0 0ENDPH-BS 44.4 0 1.4 1.1 0.0 0.0 0.0 0.0 43.0 26.5

Load (kVA)MCC 515.5Snow Melt 2 108.1Elevator 166.3Fire Pump 124.7

Demand Loads 361.2 289.2 184.0 73.5 337.5

Total Demand Load 2160 kVADemand Loadw/ Growth (10%) 2376 kVATotal Current 2598 ACurrent w/ Growth (10%) 2858 A

Service Entrance Sizing - Construction

Appendix G

J. Greer

Phase

Total Load

(kVA)

Total Current

(A)

Concept 1541 1854

Design Development 2504 3012

Construction 2376 2858

Design Equipment Transformer Switchboard

1500kVA 3000A

Service Entrance Summary

Appendix H

 

TM

e-Vision® Electronic Ballast for Metal Halide Lamps

Catalog Number IMH-39-G For 39W Metal Halide Lamps ANSI M130 120-277V 50/60Hz Electronic Status: Preliminary

DIMENSIONS AND DATA Lamp Data

Number Watts Input Volts

Catalog Number*

Line Current (Amps)

Input Power

(W)

Ballast Factor

Max THD (%)

Min Power Factor

Wiring Dia Figure Weight

(lb)

Max Distance to Lamp

(ft)

39W Watt Lamp, ANSI Code M130 Minimum Starting Temp -30°C/-20°F

120 0.39 46

1 39

277

IMH-39-G-xxx

0.18 45

1.0 15% 0.95 3 G 0.9 5

(Blue)

Ballast(Black)

(White)

(Red)

Com

120V - 277V

Ballast Case mustbe Grounded

Lamp

Wiring Diagram 3

(Green)

Bottom Lead &Stud Version

45mm.

12m

m.

Case Temperature Measurement Location

Tcase max = 90 deg. C

Side LeadVersion

12m

m.

45mm.

Angled Corner(Referance)

*Ordering Information Order Suffix Description

-LF Ballast with side exit leads and mounting feet

-BLS Ballast with bottom exit leads and mounting studs

INSTALLATION & APPLICATION NOTES: 1. Maximum allowable case temperature is 90°C. See figure above

for measurement location 2. Ignition pulse is 4 kV max 3. All leads are 9 inches long 4. Ballast output will shutdown after 20 minutes if lamp fails to ignite 5. Power must be cycled off – then on, after replacing lamp 6. Connect the red leads to the center terminals of the lamp when

using screw base lamps

Data is based on tests performed by Advance transformer in a controlled environment and representative of relative performance. Actual performance can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.

Advance • 10275 West Higgins Road • Rosemont, Illinois 60018-5603 • (847) 390-5000 • fax: 847-390-5109 • www.advancetransformer.com

A DIVISION OF PHILIPS ELECTRONICS NORTH AMERICA CORPORATION

Revised 1/16/06

Figure G

CASE LENGTH = 3.54“ [90mm] MOUNTING LENGTH = 3.43” [87mm] MOUNTING WIDTH = 2.64” [67mm] OVERALL LENGTH = 3.82” [97mm] CASE WIDTH = 3.03” [77mm] HEIGHT = 1.18” [30mm]

Metal

Halide

Lamp Ballast

Catalog Number 71A5380

For 100W M90/M140

60 Hz HX-HPF

Status: Active

DIMENSIONS AND DATA

1.0"

5.10 "

4.50"

BMAX.

A

0.7"

0.25" WIDE2 SLOTS

3 X 4 CORE - 2 COIL UNIT

2.45"

3.95"

3.50"

2.90"2.80"

4 HOLESCLEAREDFOR #10

THRU-BOLTS

Capacitor: 7C120M33-R

Capacitance: 12

Dia/Oval Dim: 1.5

Height: 2.9

Temp Rating: 105°C

Ballast to Lamp Distance

(BTL) = 20 feet

Temp Rating: 105°C

Ignitor: LI533-H4

Data is based upon tests performed by Advance Transformer in a controlled environment and representitive of relative performance.Actual performance can vary depending on operating conditions. Specifications are subject to change without notice.

ADVANCEO'HARE INTERNATIONAL CENTER · 10275 WEST HIGGINS ROAD · ROSEMONT, IL 60018

Customer Support/Technical Service: Phone: 800-372-3331 · Fax: 630-307-3071

Corporate Offices: Phone: 800-322-2086

INPUT VOLTS 120 277

CIRCUIT TYPE

POWER FACTOR (min)

REGULATION

Line Volts

Lamp Watts

LINE CURRENT (Amps)

Operating................................................... 1.15 0.50

Open Circuit............................................... 2.30 1.00

Starting...................................................... 1.20 0.60

UL TEMPERATURE RATINGS

Insulation Class

Coil Temperature Code B A

MIN. AMBIENT STARTING TEMP.

NOM. OPEN CIRCUIT VOLTAGE

INPUT VOLTAGE AT LAMP DROPOUT........................... 90 208

INPUT WATTS

RECOMMENDED FUSE (Amps)..................................... 6 3

CORE and COIL

Dimension (A)

Dimension (B)

Weight (lbs.)

Lead Lengths

CAPACITOR REQUIREMENT

Microfarads

Volts (min.)

Fault Current Withstand (amps)

60 Hz TEST PROCEDURES (Refer to Advance Test

Procedure for HID Ballasts - Form 1270)

High Potential Test (Volts)

1 minute

2 seconds

Open Circuit Voltage Test (Volts)

Short-Circuit Current Test (Amps)

Secondary Current

Input Current.............................................. 1.00 0.40 - - -

1.50 0.65

HX-HPF

90%

±5%

±12%

H(180°C)

1029

-20°F or -30°C

265

129

1.50

2.80

5.5

12"

12.0

280

2000

2500

240-300

1.35-1.70

Wiring Diagram:

Fig. K3

LAMP

CAP LAMP

COM COM

LINE V

LINE V

COMLINE V

CAP

LINE V

IGNITOR

X1X3

X2

Typical Ordering Information

(please call Advance for suffix availability)

Order Suffix Description 500D. Ballast With Ignitor and Dry Film Capacitor

510D. Ballast w/Welded Bracket, Ignitor, & Dry Film Capacitor

600. Ballast and Ignitor, No Capacitor

610. Ballast with Welded Bracket and Ignitor, No Capacitor

10/29/01

TM

e-Vision® Electronic Ballast for Metal Halide Lamps

Catalog Number IMH-150-H For 150W Metal Halide Lamps ANSI M142, M102 120-277V 50/60Hz Electronic Status: Released

DIMENSIONS AND DATA Lamp Data

Number Watts Input Volts

Catalog Number*

Line Current (Amps)

Input Power

(W)

Ballast Factor

Max THD (%)

Min Power Factor

Wiring Dia Figure Weight

(lb)

Max Distance to Lamp

(ft)

150W Watt Lamp, ANSI Code M142, M102 Minimum Starting Temp -30°C/-20°F

120 1.38 165

1 150

277

IMH-150-H-xxx

0.69 161

1.0 10% 0.90 3 H 1.9 5

(Blue)

Ballast(Black)

(White)

(Red)

Com

120V - 277V

Ballast Case mustbe Grounded

Lamp

Wiring Diagram 3

(Green)

120mm.

12m

m.

Case Temperature Measurement Location

Tcase max = 85 deg. C

(2) Mountingfeet this end

(1) Mountingfoot this end

*Ordering Information Order Suffix Description

-LF Ballast with side exit leads and mounting feet

-BLS Ballast with bottom exit leads and mounting studs

INSTALLATION & APPLICATION NOTES: 1. Maximum allowable case temperature is 85°C. See figure above

for measurement location 2. Ignition pulse is 4 kV max 3. All leads are 12 inches long 4. Ballast output will shutdown after 20 minutes if lamp fails to ignite 5. Power must be cycled off – then on, after replacing lamp 6. Connect the red lead to the center terminal of the lamp when using

screw base lamps

Data is based on tests performed by Advance transformer in a controlled environment and representative of relative performance. Actual performance can vary depending on operating conditions. Specifications are subject to change without notice. All specifications are nominal unless otherwise noted.

Advance • 10275 West Higgins Road • Rosemont, Illinois 60018-5603 • (847) 390-5000 • fax: 847-390-5109 • www.advancetransformer.com

A DIVISION OF PHILIPS ELECTRONICS NORTH AMERICA CORPORATION

Revised 9/22/06

CASE LENGTH = 5.67” [144mm] MOUNTING LENGTH = 6.0” [152mm] MOUNTING WIDTH = 2.87” [73mm] OVERALL LENGTH = 6.34” [161mm] CASE WIDTH = 3.62” [92mm] HEIGHT = 1.5” [38mm]

Figure H